Chuck device

ABSTRACT

A chuck device is provide with an annular ratchet tooth wheel in a body, an annular nut member that engages with claws nd rotates together with a rotary sleeve, and a retainer spring member for engaging the ratchet tooth wheel. The retainer spring member is rotated around the ratchet wheel in accordance with rotation of a retainer spring receiving sleeve within the retainer spring receiving sleeve t at rotates together with a nut member and that is fitted around the nut member and made of metal. The retainer spring member is mounted on the retainer spring receiving sleeve by a convex/concave engagement means. A retainer working portion is provided in a working sleeve, for rotating with the retainer spring receiving sleeve.

BACKGROUND OF THE INVENTION

The present invention relates to a chuck device for clamping a tool.

Conventionally, chuck devices have been proposed.

These chuck devices are to be provided to an electric power tool. A predetermined tool such as a cutter blade (drill) is clamped by means of the chuck device for drilling or the like.

By the way, a so-called hummer drill, a vibrating drill or the like for good drilling work while imparting a shock or a vibration has been used as the electric power tool.

This kind of the electric power tool is used for intermittently imparting a force (propelling force) in an axial direction. As a result, a twist force is likely to occur intermittently in the coupled tool so that the tool is loosened.

SUMMARY OF THE INVENTION

An object of the present invention is to provide a chuck device that may solve the problems, and that is simple in structure and superior in durability.

In order to attain this and other objects, according to the present invention, there is provided a chuck device in which a chuck device in which a plurality of claws provided at a tip end of a body is slidingly opened and closed to clamp a tool with the claws by rotation of a rotary sleeve, wherein an annular ratchet tooth wheel is provided in the body, an annular nut member that engages with the claws and rotates together with the rotary sleeve is provided inside the rotary sleeve and behind the ratchet wheel within the body, a retainer spring member that is composed of a leaf spring made of metal and detached and attached for engaging the ratchet tooth wheel is disposed outside of the ratchet tooth wheel, the retainer spring member is provided under the condition the retainer spring member is rotated around the ratchet wheel in accordance with a rotation of a retainer spring receiving sleeve within the retainer spring receiving sleeve that rotates together with the nut member and that is fitted around the nut member and made of metal, the retainer spring member is mounted on the retainer spring receiving sleeve by a convex/concave engagement means, a holder spring member that is composed of a metal made leaf spring formed as a detachable/attachable separate member from the retainer spring member for holding a retention release condition between the ratchet tooth wheel and the retainer spring member and the retention condition between the ratchet tooth wheel and the retainer spring member is disposed at a position facing the retainer spring member outside the ratchet tooth wheel, the holder spring member is adapted in the retainer spring receiving sleeve to rotate around the ratchet tooth wheel in accordance with the rotation of the retainer spring receiving sleeve, the holder spring member is mounted on the retainer spring receiving sleeve by the concave/convex engagement means, a metal made working sleeve that rotates together with the rotary sleeve and rotates through a predetermined angle relative to the retainer spring receiving sleeve is provided in the retainer spring receiving sleeve, a retainer working portion is provided in the working sleeve, the retainer working portion being composed of a retainer holder portion for maintaining a retention condition between the ratchet tooth wheel and the retainer spring member and a pressure portion for depressing the projection of the retainer spring member which is to be inserted into a hole portion of the retainer spring receiving sleeve and retaining the retainer spring member to the ratchet tooth wheel, a position holder portion for holding a position of the working sleeve to the retainer spring receiving sleeve to thereby hold the retention condition between the retainer spring member and the ratchet tooth wheel and the release condition between the retainer spring member and the ratchet tooth wheel is provided in the working sleeve, and the position holder portion is constituted by a projection of the holder spring member and a hole portion which is formed in the working sleeve and into which the projection is inserted, the projection is engaged with an elongated hole provided in the retainer spring receiving sleeve, the elongated hole has a tip end opening shape cut away from a tip end edge to a proximal end side of the retainer spring receiving sleeve so that the working sleeve may rotate within a range of the elongated hole to the retainer spring receiving sleeve and the nut member may rotate with the projection in contact with an inner end of the elongated hole, and the hole portion into which the projection of the retainer spring member is inserted has a tip end opening shape cut away from the tip end edge to the proximal end side of the retainer spring receiving sleeve.

According to the present invention, a chuck device in which a plurality of claws provided at a tip end of a body is slidingly opened and closed to clamp a tool with the claws by rotation of a rotary sleeve, is characterized in that an annular ratchet tooth wheel is provided in the body, an annular nut member that engages with the claws and rotates together with the rotary sleeve is provided inside the rotary sleeve and behind the ratchet wheel within the body, a retainer spring member that is composed of a leaf spring made of metal and detached and attached for engaging the ratchet tooth wheel is disposed outside of the ratchet tooth wheel, the retainer spring member is provided under the condition the retainer spring member is rotated around the ratchet wheel in accordance with a rotation of a retainer spring receiving sleeve within the retainer spring receiving sleeve that rotates together with the nut member and that is fitted around the nut member and made of metal, a structure in which a projection formed in the retainer spring member is fitted in a hole portion formed in the retainer spring receiving sleeve is provided for mounting the retainer spring member onto the retainer spring receiving sleeve, a holder spring member that is composed of a metal made leaf spring formed as a detachable/attachable separate member from the retainer spring member for holding a retention release condition between the ratchet tooth wheel and the retainer spring member and the retention condition between the ratchet tooth wheel and the retainer spring member is disposed at a position facing the retainer spring member outside the ratchet tooth wheel, the holder spring member is adapted in the retainer spring receiving sleeve to rotate around the ratchet tooth wheel in accordance with the rotation of the retainer spring receiving sleeve, the holder spring member is mounted on the retainer spring receiving sleeve by the structure in which the projection formed in the retainer spring member is fitted in the hole portion formed in the retainer spring receiving sleeve, a metal made working sleeve that rotates together with the rotary sleeve and rotates through a predetermined angle relative to the retainer spring receiving sleeve is provided in the retainer spring receiving sleeve, a retainer working portion is provided in the working sleeve, the retainer working portion being composed of a retainer holder portion for maintaining a retention condition between the ratchet tooth wheel and the retainer spring member and a pressure portion for depressing the projection of the retainer spring member which is to be inserted into a hole portion of the retainer spring receiving sleeve and retaining the retainer spring member to the ratchet tooth wheel, a position holder portion for holding a position of the working sleeve to the retainer spring receiving sleeve to thereby hold the retention condition between the retainer spring member and the ratchet tooth wheel and the release condition between the retainer spring member and the ratchet tooth wheel is provided in the working sleeve, and the position holder portion is constituted by a projection of the holder spring member and a hole portion which is formed in the working sleeve and into which the projection is inserted, the projection is engaged with an elongated hole provided in the retainer spring receiving sleeve, the elongated hole has a tip end opening shape cut away from a tip end edge to a proximal end side of the retainer spring receiving sleeve so that the working sleeve may rotate within a range of the elongated hole to the retainer spring receiving sleeve and the nut member may rotate with the projection in contact with an inner end of the elongated hole, and the hole portion provided in the retainer spring receiving sleeve has a tip end opening shape cut away from the tip end edge to the proximal end side of the retainer spring receiving sleeve.

According to the invention, a chuck device in which a plurality of claws provided at a tip end of a body is slidingly opened and closed to clamp a tool with the claws by rotation of a rotary sleeve, is characterized in that an annular ratchet tooth wheel is provided in the body, an annular nut member that engages with the claws and rotates together with the rotary sleeve is provided inside the rotary sleeve and behind the ratchet wheel within the body, a retainer spring member that is composed of a leaf spring made of metal and detached and attached for engaging the ratchet tooth wheel is disposed outside of the ratchet tooth wheel, the retainer spring member is provided under the condition the retainer spring member is rotated around the ratchet wheel in accordance with a rotation of a retainer spring receiving sleeve within the retainer spring receiving sleeve that rotates together with the nut member and that is fitted around the nut member and made of metal, a structure in which a projection and a hole portion formed in the retainer spring receiving sleeve and a recess portion and a projection formed in the retainer spring member are engaged with each other is provided for mounting the retainer spring member onto the retainer spring receiving sleeve, a holder spring member that is composed of a metal made leaf spring formed as a detachable/attachable separate member from the retainer spring member for holding a retention release condition between the ratchet tooth wheel and the retainer spring member and the retention condition between the ratchet tooth wheel and the retainer spring member is disposed at a position facing the retainer spring member outside the ratchet tooth wheel, the holder spring member is adapted in the retainer spring receiving sleeve to rotate around the ratchet tooth wheel in accordance with the rotation of the retainer spring receiving sleeve, the holder spring member is mounted on the retainer spring receiving sleeve by the structure in which the projection and the hole portion formed in the retainer spring receiving sleeve and the recess portion and the projection formed in the retainer spring member are engaged with each other, a metal made working sleeve that rotates together with the rotary sleeve and rotates through a predetermined angle relative to the retainer spring receiving sleeve is provided in the retainer spring receiving sleeve, a retainer working portion is provided in the working sleeve, the retainer working portion being composed of a retainer holder portion for maintaining a retention condition between the ratchet tooth wheel and the retainer spring member and a pressure portion for depressing the projection of the retainer spring member which is to be inserted into a hole portion of the retainer spring receiving sleeve and retaining the retainer spring member to the ratchet tooth wheel, a position holder portion for holding a position of the working sleeve to the retainer spring receiving sleeve to thereby hold the retention condition between the retainer spring member and the ratchet tooth wheel and the release condition between the retainer spring member and the ratchet tooth wheel is provided in the working sleeve, and the position holder portion is constituted by a projection of the holder spring member and a hole portion which is formed in the working sleeve and into which the projection is inserted, the projection is engaged with an elongated hole provided in the retainer spring receiving sleeve, the elongated hole has a tip end opening shape cut away from a tip end edge to a proximal end side of the retainer spring receiving sleeve so that the working sleeve may rotate within a range of the elongated hole to the retainer spring receiving sleeve and the nut member may rotate with the projection in contact with an inner end of the elongated hole, and the hole portion provided in the retainer spring receiving sleeve has a tip end opening shape cut away from the tip end edge to the proximal end side of the retainer spring receiving sleeve.

According to the present invention, a chuck device in which a plurality of claws provided at a tip end of a body is slidingly opened and closed to clamp a tool with the claws by rotation of a rotary sleeve, is characterized in that an annular ratchet tooth wheel is provided in the body, an annular nut member that engages with the claws and rotates together with the rotary sleeve is provided inside the rotary sleeve and behind the ratchet wheel within the body, a retainer spring member that is composed of a leaf spring made of metal and detached and attached for engaging the ratchet tooth wheel is disposed outside of the ratchet tooth wheel, the retainer spring member is provided under the condition the retainer spring member is rotated around the ratchet wheel in accordance with a rotation of a retainer spring receiving sleeve within the retainer spring receiving sleeve that rotates together with the nut member and that is fitted around the nut member and made of metal, the retainer spring member is mounted on the retainer spring receiving sleeve by a convex/concave engagement means, a holder spring member that is composed of a metal made leaf spring formed as a detachable/attachable separate member from the retainer spring member for holding a retention release condition between the ratchet tooth wheel and the retainer spring member and the retention condition between the ratchet tooth wheel and the retainer spring member is disposed at a position facing the retainer spring member outside the ratchet tooth wheel, the holder spring member is adapted in the retainer spring receiving sleeve to rotate around the ratchet tooth wheel in accordance with the rotation of the retainer spring receiving sleeve, the holder spring member is mounted on the retainer spring receiving sleeve by the concave/convex engagement means, a metal made working sleeve that rotates together with the rotary sleeve and rotates through a predetermined angle relative to the retainer spring receiving sleeve is provided in the retainer spring receiving sleeve, a retainer working portion is provided in the working sleeve, the retainer working portion being composed of a retainer holder portion for maintaining a retention condition between the ratchet tooth wheel and the retainer spring member and a retainer condition release portion for releasing the retained condition between the ratchet tooth wheel and the retainer spring member, a position holder portion for holding a position of the working sleeve to the retainer spring receiving sleeve to thereby hold the retention condition between the retainer spring member and the ratchet tooth wheel and the release condition between the retainer spring member and the ratchet tooth wheel is provided in the working sleeve, and the position holder portion is constituted by a projection of the holder spring member and a hole portion which is formed in the working sleeve and into which the projection is inserted, the projection is engaged with an elongated hole provided in the retainer spring receiving sleeve, and the elongated hole has a tip end opening shape cut away from a tip end edge to a proximal end side of the retainer spring receiving sleeve so that the working sleeve may rotate within a range of the elongated hole to the retainer spring receiving sleeve and the nut member may rotate with the projection in contact with an inner end of the elongated hole.

Also, in the chuck device, each component is made of metal.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a partially fragmentary, frontal view of a chuck device according to a first embodiment of the present invention.

FIG. 2 is an exploded perspective view of a primary part of the chuck device shown in FIG. 1.

FIG. 3 is a cross-sectional view taken along the line III—III of FIG. 1.

FIG. 4 is a cross-sectional view taken along the line IV—IV of FIG. 1.

FIG. 5 is a perspective view of a retainer spring member and a holder spring member in accordance with the first embodiment of the present invention.

FIG. 6 is an illustration showing a loosened phenomenon of coupling in an electric power tool according to this embodiment.

FIG. 7 is a partially fragmentary, frontal view of a chuck device according to a second embodiment of the present invention.

FIG. 8 is an exploded perspective view of a primary part of the chuck device shown in FIG. 7.

FIG. 9 is a cross-sectional view corresponding to FIG. 4 taken along the line IX—IX of FIG. 7 according to the second embodiment of the invention.

FIG. 10 is a cross-sectional view corresponding to FIG. 3 of another example that is a modification of a part of the first embodiment.

FIG. 11 is a partially fragmentary, frontal view of a chuck device according to a third embodiment of the present invention.

FIG. 12 is an exploded perspective view of a primary part of the chuck device shown in FIG. 11.

FIG. 13 is a cross-sectional view corresponding to FIG. 3 taken along the line XIII—XIII of FIG. 11 according to the third embodiment of the invention.

FIG. 14 is a cross-sectional view corresponding to FIG. 4 taken along the line XIV—XIV of FIG. 11 according to the third embodiment of the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

A first embodiment of the present invention will now be described with reference to FIGS. 1 to 5.

In this embodiment, the components are all made of metal.

Three claws 3 are slanted and provided in holes 2 a formed in a body 2. An annular nut member 6 that engages with a screw portion 3 a formed in an outer surface of the claws 3 is provided and engaged with the claws 3. Incidentally, the nut member 6 is a split nut member 6 and a shape of the nut member 6 is maintained by a retainer spring receiving sleeve 8 to be described.

Also, an annular ratchet tooth wheel 5 is formed in front of the nut member 6 and in the body 2.

Reference numeral 13 denotes steel balls and numeral 14 denotes steel ball receivers.

The retainer spring receiving sleeve 8 that rotates together with the nut member 6 is engaged with the nut member 6. Hole portions 8 a, 8 b, 8 c and 8 d for mounting and rotating a retainer spring member 7 and a holder spring member 11 together with the spring retainer receiving sleeve 8 are provided in the retainer spring receiving sleeve 8. Since each of these hole portions 8 a, 8 b, 8 c and 8 d has an open tip end cut away from a distal end edge to a proximal end side of the retainer spring receiving sleeve 8, it is possible to very easily perform the attachment/detachment of the retainer spring member 7 and the holder spring member 11 and it is possible to readily mount the retainer spring member 7 and the holder spring member 11 each of which has any desired spring force.

The retainer spring member 7 and the holder spring member 11 are disposed around the ratchet tooth wheel 5 to face each other. Also, in the form shown in FIG. 5, i.e., in the retainer spring 7, two projections 7 a and 7 b and a tip end retainer portion 7′ for engaging with the ratchet tooth wheel 5 are provided. On the other hand, two projections 11 c and 11 d are formed in the holder spring member 11. The end portion associated with this projection 11 c is bent toward the projection 11 d. When the projection 11 c is inserted into the hole portion 9 a, the bent portion is brought into pressing contact with the ratchet tooth wheel 5 and exhibits the spring force as described later. The retainer spring member 7 is mounted so as to rotate together with the retainer spring receiving sleeve 8 by the hole portions 8 a and 8 b of the above-described retainer spring receiving sleeve 8 and the projections 7 a and 7 b of the retainer spring member 7. Also, the holder spring member 11 is mounted so as to rotate together with the retainer spring receiving sleeve 8 by the hole portions 8 c and 8 d of the above-described retainer spring receiving sleeve 8 and the projections 11 c and 11 d of the holder spring member 11.

Incidentally, for the mounting manner of the projection portion 7 a of the retainer spring member 7 and the projection portion 11 d of the holder spring member 11 on the retainer spring receiving sleeve 8, for example, recess portions 7 a′ and 11 d′ may be provided instead of the projection portion 7 a of the retainer spring member 7 and the projection portion 11 d of the holder spring member 11 as shown in FIG. 10, whereas projections 8 a′ and 8 d′ may be provided on the retainer spring receiving sleeve 8 for engaging the spring members with the retainer spring receiving sleeve. Namely, if the spring members and the retainer spring receiving sleeve may be rotated together, the mounting structure is not limited to the above-described specific structure.

A working sleeve 9 received at its end in the body 2 is fitted in the retainer spring receiving sleeve 8. The working sleeve 9 is rotated together with the retainer spring receiving sleeve 8. However, when a predetermined load is applied to the rotation of the retainer spring receiving sleeve 8, the working sleeve 9 is adapted to rotate through a predetermined angle to the retainer spring receiving sleeve 8.

The rotation of the working sleeve 9 through the predetermined angle to the retainer spring receiving sleeve 8 is attained by a simple structure for inserting the projection 9 f inwardly projected and formed in the working sleeve 9 into the elongated hole 8 f formed in the retainer spring receiving sleeve 8 (i.e., the tip end opening structure in which the retainer spring receiving sleeve 8 is cut away from the distal tip edge to the proximal end). Accordingly, it is also easy to assemble the working sleeve 9 with the retainer spring receiving sleeve 8.

Also, since the working sleeve 9 is made separately from the rotary sleeve 1 and made of metal, it is possible to form the projection 9 f only by, for example, transfer press. Since the longitudinal hole 8 f for receiving this projection 9 f is formed into the tip end opening shape cut away from the distal end edge to the proximal end side and formed with the same depth as that of the above-described hole portions 8 a, 8 b, 8 c and 8 d, the projection 9 f may be arranged on the same circumference as that of the retainer spring member 7 and the holder spring member 11. Accordingly, the retainer spring receiving sleeve 8 may be formed short and compact. It is possible to obtain the torque transmission structure that is superior in durability to the nut member 6.

Reference numeral 9 c denotes a hole portion into which the projection 11 c of the holder spring member 11 is inserted. Numeral 9 d denotes a hole portion into which the projection 11 d of the holder spring member 11 is inserted. Numeral 9 b denotes a hole portion into which the projection 7 b of the retainer spring member 7 is inserted. Numeral 9 a denotes a hole portion into which the projection 7 a of the retainer spring member 7 is inserted.

Also, a pressure portion 10′ for depressing the projection 7 b of the retainer spring body 7 and a retainer holder portion 10″ (inner surface) for depressing the projection 7 b are formed in the working sleeve 9. Furthermore, a pressure portion 12′ for depressing the projection 11 c of the retainer spring member 11 is formed in the working sleeve 9. Incidentally, since this pressure portion 10′ and the retainer holder portion 10″ are made of metal, the durable use thereof is possible.

A rotary sleeve 1 that rotates together with the working sleeve 9 and is provided with a slippage preventing shape (serration) is fitted around the working sleeve 9. The rotary sleeve 1 is received by a stationary sleeve 15 that is fixed at a tip end to a stepped portion 2′ of the body 2 and at a rear end to the body 2. Also, the projections 7 a and 7 b of the above-described retainer spring member 7 and the projections 11 c and 11 d of the holder spring member 11 are received by the inner surface of the rotary sleeve 1.

The structure in which the working member 9, the retainer spring receiving sleeve 8 and the nut member 6 are arranged inside the rotary sleeve 1 according to this embodiment has been thus described.

Incidentally, the stationary sleeve 15 may be made of synthetic resin. Also, it is possible to take a structure in which the rotary sleeve 1 is caused to extend to dispense with the stationary sleeve 15 (in this case, the rotary sleeve 1 is supported to the receiving member provided in the body 2).

Reference numeral 16 denotes a C-shaped pull-off preventing ring for the rotary sleeve 1, which is provided on the rear side of the tip end tapered portion of the body 2 and depressingly fitted in a recess groove formed in the body 2. The rotary sleeve 1 is in sliding contact with this pull-off preventing ring 16 and the tip end stepped portion 2′ of the body 2. Accordingly, the back-and-forth movement of the rotary sleeve 1 is limited by this pull-off preventing ring 16 and the stepped portion 2′.

Reference numeral 17 denotes a receiving portion for receiving the retainer spring member 7 and the holder spring member 11.

In operation, the chuck device according to the first embodiment of the present invention will work as follows. When the tool 4 is gripped by means of the claws 3 and the rotary sleeve 1 is rotated, until a predetermined load is applied to the rotary sleeve 1, the rotary sleeve 1, the working sleeve 9, the retainer spring receiving sleeve 8 and the nut member 6 are rotated together. Accordingly, the holder spring body 11 and the retainer spring body 7 are also rotated around the ratchet tooth wheel 5. When the rotary sleeve 1 is rotated to the predetermined position (i.e., the position where the claws 3 are rotated corresponding to the tool 4), the predetermined load is applied to the rotary sleeve 1 (in the condition of FIG. 3). When the rotary sleeve 1 is further rotated from that condition, the working sleeve 9 is rotated relative to the retainer spring receiving sleeve 8 (within the range of the elongated hole 8 f). The pressure portion 10′ as the retainer working portion 10 depresses the projection 7 b of the retainer spring member 7. The retainer holder portion 10″ as the retainer working portion 10 receives the projection 7 b (under pressure). The tip end retainer portion 7′ of the retainer spring member 7 is brought into abutment with the ratchet tooth wheel 5 with the projection 9 f being brought into abutment with the end portion of the elongated hole 8 f. The nut member 6 is rotated to increase the fastening force. The tip end retainer portion 7′ rides over the ratchet teeth of the wheel 5 one by one and retained at the predetermined ratchet tooth by the leaf spring effect (in the condition that the retainer portion is riding over the teeth one by one, the fastening operation has not yet been completed, and when the fastening operation has been finished, the riding-over of the teeth is stopped). Under this condition, the rotational resistance of the rotary sleeve 1 is increased and the loosening of the coupling of the tool 4 is prevented by the spring force of the retainer spring member 7 (see FIG. 4). In this case, the pressure portion 12′ depresses the projection 11 c of the holder spring retainer 11, and the projection 11 c is inserted into the hole portion 9 a. Therefore, the engagement condition between the ratchet tooth of the wheel 5 and the tip end retainer portion 7′ of the retainer spring member 7 is held without fail by the engagement between the projection 11 c of the holder spring member 11 and the hole portion 9 a. The loosening of the coupling of the tool 4 is prevented as much as possible (in this sense, the position holding portion 12 is constituted by the projection 11 c of the holder spring member 11 and the hole portions 9 c and 9 a of the working sleeve 9).

Incidentally, the timing when the working sleeve 9 starts the rotation relative to the retainer spring receiving sleeve 8 depends upon the setup of the spring force of the holder spring member 11.

In order to release this coupled condition, when the rotary sleeve 1 is rotated in the reverse direction, the fastening of the tool 4 is loosened by the opposite action to that described above.

By the way, as shown in FIG. 6, when the rotational direction of the body is in the direction indicated by arrows a, the propelling force is applied intermittently in the axial direction so that a twist force (indicated by arrows in claws 32) intermittently occurs in the claw 32 about the slant shaft 34 of the claw 32. The repeated twist force causes the force for loosing (indicated by an arrow b in the nut member 35) to occur in an engagement portion 33 between each claw 32 and a nut member 35. As a result, the fastening of the tool 31 is loosened.

In particular, in case of this kind electric power rotary tool having a high drilling speed and a high power, naturally, the twist force generated in the claws 32 is also large so that the fastening of the tool 31 is largely loosened.

Accordingly, U.S. Pat. No. 5,765,839 (hereinafter referred to as the conventional example 1) discloses a chuck device having a structure for preventing the loosening.

In the conventional example 1, after the tool has been fastened, the coupling of the tool is prevented from being loosened by a ratchet mechanism. However, this suffers from the following problem.

Namely, in the conventional example 1, since ratchet means retained at a ratchet tooth for performing a ratchet function and retaining means for holding the current position of the ratchet means are constituted by a single piece of leaf spring, for example, in the case where the ratchet means has a high mechanical strength that is durable against the stronger force, it is very difficult to realize such a structure. As described above, in the case where the structure is used in the high output electric power rotary tool, it is unnecessary to strengthen the retaining means in conformity with the high output electric power rotary tool but it is sufficient to set the strength to a predetermined level. However, it is necessary to use the ratchet means that is strong in conformity with the output as described above. If the ratchet means is strengthened for the high output electric power rotary tool, naturally, the retaining means is also to be strengthened because of the single piece leaf spring. Strengthening the retaining means would mean the very poor operationability. Incidentally, for instance, there is an approach to prepare a leaf spring whose plate thickness is partially changed. This is very troublesome and not practical.

Also, in the case where a strong leaf spring having a large plate thickness is used as the spring for the high output electric power rotary tool, the leaf spring is curved in an arcuate form and assembled into the structure. This is also very troublesome.

Therefore, in order to solve this problem, for instance, U.S. Pat. No. 5,458,345 (hereinafter referred to as the conventional example 2) proposes another approach.

In this conventional example 2, discrete members are used for the ratchet means and the retaining means, respectively. However, this system also suffers from the following problem.

This conventional example 2 has a problem in durability because the retaining means is made of synthetic resin. Namely, since the retaining means is subjected to a thermal deformation (change in elastic constant) by the heat generated during the drilling work and the retaining force is changed, the position of the above-described ratchet means is not suitable. Also, naturally, the retaining means made of synthetic resin is repetitively continuously used, resulting in degradation of a so-called elasticity. The example suffers from the problem in this point.

Accordingly, the conventional example 2 may solve the problem inherent in the conventional example 1 by separating the ratchet means and the retaining means but would be still insufficient due to the problem of thermal deformation.

By the way, in the case where the electric rotary tool is locked during the working operation, a large twist force is applied to the tool, a twist is generated about the slant shaft 34 of the claw 32 and the large force is left about the center of the engagement portions 33 of the nut member 35. In this case, in order to release the engagement of the tool 31 in a reverse manner, a large loosening torque is needed to the rotary sleeve (the sleeve member for gripping to rotate the nut member 35).

Therefore, in order to solve this point, for example, U.S. Pat. No. 5,829,761 (hereinafter referred to conventional example 3) has been proposed. In this conventional example 3, for the purpose of transmission of the torque from an outer sleeve (rotary sleeve) to an inner ring (nut member), a complicated structure is used inside of the outer sleeve. Accordingly, the soft material (resin) has to be used inside the outer sleeve. Accordingly, the structure becomes a sandwich structure of the outer sleeve, the soft material and the intermediate ring. Accordingly, the outer sleeve is coupled with the intermediate ring through the bypass. Correspondingly, the manufacture is difficult. Furthermore, the existence of the different material is not suitable also in view of the current situation of the recycle for separation of material.

In view of the foregoing point, in the first embodiment, since the retainer spring member 7 and the holder spring member 11 are provided separately from each other, for example, even if the retainer spring member 7 having the strong spring force is used for the high output electric power rotary tool, the spring force of the holder spring member 11 is not always increased unlike the conventional example 1. Accordingly, in spite that the loosening of the coupling hardly would take place, it is possible to provide the chuck device that is superior in operability and does not need any large force for releasing the locked condition after the completion of the drilling work, for example. According to the first embodiment, it is possible to provide the chuck device in which any desired retainer spring member 7 and holder spring body 11 may be mounted for the characteristics of the electric power rotary tool. The chuck device is thus superior in practical use.

Furthermore, according to the first embodiment, since all the components including the holder spring member 11 are made of metal, the deformation due to the heat generated together with the drilling work as in the conventional example 2 (change in elastic constant) may be prevented as much as possible. Correspondingly, it is possible to provide the chucking device in which the coupling hardly would be loosened and that is durable for the repetitive continuous use.

Accordingly, it is possible to provide the chuck device in which the loosening of the coupling of the tool 4 may be prevented without fail and which is superior in recycle characteristics and in durability with the simple structure.

FIGS. 7 to 9 show a second embodiment of the present invention. This will now be described.

In the second embodiment, the working sleeve 9 is bent at tip end to form a projection 9 f′ (corresponding to the projection 9 f of the first embodiment).

In the working sleeve 9 of the second embodiment, several slits 18 are provided close to the proximal end thereof. Projecting pieces 19′ of a snap ring 19 are inserted into the slits 18. Accordingly, the working sleeve 9 is retained at the body 2 by means of the snap ring 19. As a result, the forward movement of the rotary sleeve 1 is limited by means of the working sleeve 9 and the rearward movement is limited by means of the above-described stepped portion 2′.

The other structure is the same as that of the first embodiment.

FIGS. 11 to 14 show a third embodiment of the present invention. This will now be described.

The third embodiment is different from the first embodiment and the second embodiment in movement of the retainer spring member 7.

Namely, when the tool 4 is coupled, the rotary sleeve 1 is rotated and the predetermined load is applied to the rotary sleeve 1, the working sleeve 9 is rotated to the retainer spring receiving sleeve 8, so that the retainer condition release portion 20″ (a piece formed by bending the working sleeve 9) provided in the working sleeve 9 is moved from the condition of FIG. 13 to the condition of FIG. 14. The tip end retainer portion 7′ of the retainer spring member 7 that is separated from the ratchet tooth wheel 5 by means of this piece is retained at the ratchet tooth wheel 5 by its elasticity. This condition is maintained by a retainer holding portion 20′ (an inner surface of the working sleeve 9).

The other is the same as that of the first embodiment and the second embodiment.

As described above, the first embodiment, the second embodiment and the third embodiment are different from each other in structure for mounting the retainer spring member 7 and the holder spring member 11 on the retainer spring receiving sleeve 8, the structure (shape) of the member moving within the elongated hole 8 f of the retainer spring receiving sleeve 8, and the structure for releasing and engaging between the retainer spring member 7 and the ratchet tooth wheel 5. It is possible to use any other structure other than the combination shown. 

What is claimed is:
 1. A chuck device in which a plurality of claws provided at a tip end of a body is slidingly opened and closed to clamp a tool with the claws by rotation of a rotary sleeve, wherein an annular ratchet tooth wheel is provided in the body, an annular nut member that engages with said claws and rotates together with said rotary sleeve is provided inside the rotary sleeve and behind the ratchet wheel within the body, a retainer spring member that is composed of a leaf spring made of metal and detached and attached for engaging said ratchet tooth wheel is disposed outside of said ratchet tooth wheel, said retainer spring member is provided under the condition said retainer spring member is rotated around the ratchet wheel in accordance with a rotation of a retainer spring receiving sleeve within said retainer spring receiving sleeve that rotates together with said nut member and that is fitted around said nut member and made of metal, said retainer spring member is mounted on the retainer spring receiving sleeve by a convex/concave engagement means, a holder spring member that is composed of a metal made leaf spring formed as a detachable/attachable separate member from said retainer spring member for holding a retention release condition between said ratchet tooth wheel and said retainer spring member and the retention condition between the ratchet tooth wheel and said retainer spring member is disposed at a position facing said retainer spring member outside said ratchet tooth wheel, said holder spring member is adapted in said retainer spring receiving sleeve to rotate around the ratchet tooth wheel in accordance with the rotation of said retainer spring receiving sleeve, said holder spring member is mounted on the retainer spring receiving sleeve by said concave/convex engagement means, a metal made working sleeve that rotates together with said rotary sleeve and rotates through a predetermined angle relative to said retainer spring receiving sleeve is provided in said retainer spring receiving sleeve, a retainer working portion is provided in said working sleeve, said retainer working portion being composed of a retainer holder portion for maintaining a retention condition between said ratchet tooth wheel and said retainer spring member and a pressure portion for depressing the projection of said retainer spring member which is to be inserted into a hole portion of said retainer spring receiving sleeve and retaining said retainer spring member to said ratchet tooth wheel, a position holder portion for holding a position of said working sleeve to said retainer spring receiving sleeve to thereby hold the retention condition between said retainer spring member and said ratchet tooth wheel and the release condition between said retainer spring member and said ratchet tooth wheel is provided in said working sleeve, and said position holder portion is constituted by a projection of said holder spring member and a hole portion which is formed in said working sleeve and into which said projection is inserted, said projection is engaged with an elongated hole provided in said retainer spring receiving sleeve, said elongated hole has a tip end opening shape cut away from a tip end edge to a proximal end side of said retainer spring receiving sleeve so that said working sleeve may rotate within a range of said elongated hole to said retainer spring receiving sleeve and said nut member may rotate with said projection in contact with an inner end of said elongated hole, and said hole portion into which said projection of said retainer spring member is inserted has a tip end opening shape cut away from the tip end edge to the proximal end side of said retainer spring receiving sleeve.
 2. A chuck device in which a plurality of claws provided at a tip end of a body is slidingly opened and closed to clamp a tool with the claws by rotation of a rotary sleeve, wherein an annular ratchet tooth wheel is provided in the body, an annular nut member that engages with said claws and rotates together with said rotary sleeve is provided inside the rotary sleeve and behind the ratchet wheel within the body, a retainer spring member that is composed of a leaf spring made of metal and detached and attached for engaging said ratchet tooth wheel is disposed outside of said ratchet tooth wheel, said retainer spring member is provided under the condition said retainer spring member is rotated around the ratchet wheel in accordance with a rotation of a retainer spring receiving sleeve within said retainer spring receiving sleeve that rotates together with said nut member and that is fitted around said nut member and made of metal, a structure in which a projection formed in said retainer spring member is fitted in a hole portion formed in said retainer spring receiving sleeve is provided for mounting said retainer spring member onto said retainer spring receiving sleeve, a holder spring member that is composed of a metal made leaf spring formed as a detachable/attachable separate member from said retainer spring member for holding a retention release condition between said ratchet tooth wheel and said retainer spring member and the retention condition between the ratchet tooth wheel and said retainer spring member is disposed at a position facing said retainer spring member outside said ratchet tooth wheel, said holder spring member is adapted in said retainer spring receiving sleeve to rotate around the ratchet tooth wheel in accordance with the rotation of said retainer spring receiving sleeve, said holder spring member is mounted on the retainer spring receiving sleeve by said structure in which the projection formed in said retainer spring member is fitted in the hole portion formed in said retainer spring receiving sleeve, a metal made working sleeve that rotates together with said rotary sleeve and rotates through a predetermined angle relative to said retainer spring receiving sleeve is provided in said retainer spring receiving sleeve, a retainer working portion is provided in said working sleeve, said retainer working portion being composed of a retainer holder portion for maintaining a retention condition between said ratchet tooth wheel and said retainer spring member and a pressure portion for depressing the projection of said retainer spring member which is to be inserted into a hole portion of said retainer spring receiving sleeve and retaining said retainer spring member to said ratchet tooth wheel, a position holder portion for holding a position of said working sleeve to said retainer spring receiving sleeve to thereby hold the retention condition between said retainer spring member and said ratchet tooth wheel and the release condition between said retainer spring member and said ratchet tooth wheel is provided in said working sleeve, and said position holder portion is constituted by a projection of said holder spring member and a hole portion which is formed in said working sleeve and into which said projection is inserted, said projection is engaged with an elongated hole provided in said retainer spring receiving sleeve, said elongated hole has a tip end opening shape cut away from a tip end edge to a proximal end side of said retainer spring receiving sleeve so that said working sleeve may rotate within a range of said elongated hole to said retainer spring receiving sleeve and said nut member may rotate with said projection in contact with an inner end of said elongated hole, and said hole portion provided in said retainer spring receiving sleeve has a tip end opening shape cut away from the tip end edge to the proximal end side of said retainer spring receiving sleeve.
 3. A chuck device in which a plurality of claws provided at a tip end of a body is slidingly opened and closed to clamp a tool with the claws by rotation of a rotary sleeve, wherein an annular ratchet tooth wheel is provided in the body, an annular nut member that engages with said claws and rotates together with said rotary sleeve is provided inside the rotary sleeve and behind the ratchet wheel within the body, a retainer spring member that is composed of a leaf spring made of metal and detached and attached for engaging said ratchet tooth wheel is disposed outside of said ratchet tooth wheel, said retainer spring member is provided under the condition said retainer spring member is rotated around the ratchet wheel in accordance with a rotation of a retainer spring receiving sleeve within said retainer spring receiving sleeve that rotates together with said nut member and that is fitted around said nut member and made of metal, a structure in which a projection and a hole portion formed in said retainer spring receiving sleeve and a recess portion and a projection formed in said retainer spring member are engaged with each other is provided for mounting said retainer spring member onto said retainer spring receiving sleeve, a holder spring member that is composed of a metal made leaf spring formed as a detachable/attachable separate member from said retainer spring member for holding a retention release condition between said ratchet tooth wheel and said retainer spring member and the retention condition between the ratchet tooth wheel and said retainer spring member is disposed at a position facing said retainer spring member outside said ratchet tooth wheel, said holder spring member is adapted in said retainer spring receiving sleeve to rotate around the ratchet tooth wheel in accordance with the rotation of said retainer spring receiving sleeve, said holder spring member is mounted on the retainer spring receiving sleeve by said structure in which the projection and the hole portion formed in said retainer spring receiving sleeve and the recess portion and the projection formed in said retainer spring member are engaged with each other, a metal made working sleeve that rotates together with said rotary sleeve and rotates through a predetermined angle relative to said retainer spring receiving sleeve is provided in said retainer spring receiving sleeve, a retainer working portion is provided in said working sleeve, said retainer working portion being composed of a retainer holder portion for maintaining a retention condition between said ratchet tooth wheel and said retainer spring member and a pressure portion for depressing the projection of said retainer spring member which is to be inserted into a hole portion of said retainer spring receiving sleeve and retaining said retainer spring member to said ratchet tooth wheel, a position holder portion for holding a position of said working sleeve to said retainer spring receiving sleeve to thereby hold the retention condition between said retainer spring member and said ratchet tooth wheel and the release condition between said retainer spring member and said ratchet tooth wheel is provided in said working sleeve, and said position holder portion is constituted by a projection of said holder spring member and a hole portion which is formed in said working sleeve and into which said projection is inserted, said projection is engaged with an elongated hole provided in said retainer spring receiving sleeve, said elongated hole has a tip end opening shape cut away from a tip end edge to a proximal end side of said retainer spring receiving sleeve so that said working sleeve may rotate within a range of said elongated hole to said retainer spring receiving sleeve and said nut member may rotate with said projection in contact with an inner end of said elongated hole, and said hole portion provided in said retainer spring receiving sleeve has a tip end opening shape cut away from the tip end edge to the proximal end side of said retainer spring receiving sleeve.
 4. A chuck device in which a plurality of claws provided at a tip end of a body is slidingly opened and closed to clamp a tool with the claws by rotation of a rotary sleeve, wherein an annular ratchet tooth wheel is provided in the body, an annular nut member that engages with said claws and rotates together with said rotary sleeve is provided inside the rotary sleeve and behind the ratchet wheel within the body, a retainer spring member that is composed of a leaf spring made of metal and detached and attached for engaging said ratchet tooth wheel is disposed outside of said ratchet tooth wheel, said retainer spring member is provided under the condition said retainer spring member is rotated around the ratchet wheel in accordance with a rotation of a retainer spring receiving sleeve within said retainer spring receiving sleeve that rotates together with said nut member and that is fitted around said nut member and made of metal, said retainer spring member is mounted on the retainer spring receiving sleeve by a convex/concave engagement means, a holder spring member that is composed of a metal made leaf spring formed as a detachable/attachable separate member from said retainer spring member for holding a retention release condition between said ratchet tooth wheel and said retainer spring member and the retention condition between the ratchet tooth wheel and said retainer spring member is disposed at a position facing said retainer spring member outside said ratchet tooth wheel, said holder spring member is adapted in said retainer spring receiving sleeve to rotate around the ratchet tooth wheel in accordance with the rotation of said retainer spring receiving sleeve, said holder spring member is mounted on the retainer spring receiving sleeve by said concave/convex engagement means, a metal made working sleeve that rotates together with said rotary sleeve and rotates through a predetermined angle relative to said retainer spring receiving sleeve is provided in said retainer spring receiving sleeve, a retainer working portion is provided in said working sleeve, said retainer working portion being composed of a retainer holder portion for maintaining a retention condition between said retainer spring member and said ratchet tooth wheel and a retainer condition release portion for releasing the retained condition between said retainer spring member and said ratchet tooth wheel, a position holder portion for holding a position of said working sleeve to said retainer spring receiving sleeve to thereby hold the retention condition between said retainer spring member and said ratchet tooth wheel and the release condition between said retainer spring member and said ratchet tooth wheel is provided in said working sleeve, and said position holder portion is constituted by a projection of said holder spring member and a hole portion which is formed in said working sleeve and into which said projection is inserted, and said projection is engaged with an elongated hole provided in said retainer spring receiving sleeve, and said elongated hole has a tip end opening shape cut away from a tip end edge to a proximal end side of said retainer spring receiving sleeve so that said working sleeve may rotate within a range of said elongated hole to said retainer spring receiving sleeve and said nut member may rotate with said projection in contact with an inner end of said elongated hole.
 5. The chuck device according to any one of claims 1 to 4, wherein each component is made of metal. 